Mainstream astrophysics tells us that more than 95% of all galaxies are home to one or more black holes -- regions of space where matter said is to be collapsed to "near infinite density." However, there is no experiment that can provide evidence for matter collapsed to “near infinite density”. The Electric Universe suggests that electromagnetic "plasmoids" are responsible for the enormous energies and mass at the centers of galaxies.

In previous Space News episodes, Thunderbolts contributor Andrew Hall presented his groundbreaking thesis on new aspects of Electric Universe geology. In his arc blast theory, Hall has attempted to explain the formation of mountains and other features on earth through the principles of plasma physics and electrical engineering. In this episode, Hall explores the possible role of electrical discharges in earthly volcanism.

In Part One of this presentation, physicist Wal Thornhill explored the many obstacles that institutional science and academia face in attempting to understand climate change on Earth. As Thornhill explained, no climate models can succeed that rely on outdated and unproven assumptions, such as the belief that Earth and Venus are twins and Venus’ superheat temperatures were created by a runaway greenhouse effect. In this episode, Thornhill emphasizes the necessity that climate scientists recognize the electrical circuitry connecting the Earth and Sun, which may, in fact, drive climate and weather.

The ESA's Rosetta mission to comet 67P has shattered consensus theories about the origin and nature of comets. One of the most surprising discoveries was the appearance of "sand dunes" on the comet nucleus -- a planetary feature that has no business on a body with insufficient atmosphere to produce mechanical winds. A new scientific study proposes the latest in what have been a string of strange theories to explain the dune's formation. But can a better explanation be found in the electrical interpretation?

In Part 1 of this presentation, physicist Wal Thornhill began his analysis of the extraordinary revelations from NASA's Juno Mission to the gas giant Jupiter. Like every other recent space mission, what scientists are finding is not what they expected. In the previous episode, Thornhill focused on Jupiter’s remarkable, electrified atmosphere, an environment that astonished astronomers in 1994, when it was “probed” by the natural intruder, Comet Shoemaker-Levy 9. Today, Thornhill will explore the internal composition and dynamics of the gas giant, already a source of major surprise for NASA investigators.